Bulletin of the American Physical Society
60th Annual Meeting of the APS Division of Plasma Physics
Volume 63, Number 11
Monday–Friday, November 5–9, 2018; Portland, Oregon
Session NP11: Poster Session V: Laser-plasma Particle Acceleration; HEDP; Turbulence and Transport; DIII-D Tokamak; Machine Learning, Data Science (9:30am-12:30pm)
Wednesday, November 7, 2018
OCC
Room: Exhibit Hall A1&A
Abstract ID: BAPS.2018.DPP.NP11.34
Abstract: NP11.00034 : Code comparison of cylindrical implosion experiments for deceleration phase Rayleigh-Taylor
Presenter:
Nomita Vazirani
(Los Alamos National Lab, Virginia Tech)
Authors:
Nomita Vazirani
(Los Alamos National Lab, Virginia Tech)
John L Kline
(Los Alamos National Lab)
Sasikumar Palaniyappan
(Los Alamos National Lab)
Joshua P Sauppe
(Los Alamos National Lab)
Bhuvana Srinivasan
(Virginia Tech)
The Rayleigh-Taylor (RT) hydrodynamic instability occurs when a lower density fluid pushes on a higher density fluid. This occurs in inertial confinement fusion (ICF) implosions at each of the capsule interfaces during the initial acceleration and the deceleration as it stagnates. The RT instabilities mix capsule material into the fusion fuel degrading the DT reactivity and ultimately play a key role in limiting target performance. Significant effort has recently been focused on understanding deceleration phase RT using codes such as xRAGE1 to design experiments for OMEGA and NIF. Here we present the design of a cylindrical implosion system using the code FLASH2 for comparison to xRAGE results. We also use FLASH to explore the influence of magnetic fields on RT growth in the implosions.
1 Gittings, Michael, et al. "The RAGE radiation-hydrodynamic code." Computational Science & Discovery 1.1 (2008): 015005.
2 Fryxell, Bruce, et al. "FLASH: An adaptive mesh hydrodynamics code for modeling astrophysical thermonuclear flashes." The Astrophysical Journal Supplement Series 131.1 (2000): 273.
To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2018.DPP.NP11.34
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